Your search keyword '"Mitsuharu Yamana"' showing total 31 results

1. Resist pattern resolution on hard mask layer for photomask

Author

Naoto Yonemaru, Kazuaki Matsui, Itaru Yoshida, Yosuke Kojima, and Mitsuharu Yamana

Published

2022

2. Study of high-transmission PSM for lithographic performance and defect control

Author

Mitsuharu Yamana, Kazuaki Matsui, Tatsuya Nagatomo, Naoto Yonemaru, and Yosuke Kojima

Subjects

Materials science, Transmission (telecommunications), business.industry, Extreme ultraviolet lithography, Optoelectronics, Phase-shift mask, Process window, Wafer, business, Lithography, Critical dimension, Aerial image

Abstract

ArF lithography is still applied to the majority of critical layers, even with increasing of extreme ultraviolet lithography in leading-edge production. As wafer design shrinks, conventional 6% phase shift mask (PSM) becomes hard to meet the ArF lithography requirements especially for array dot on mask (hole on wafer). Therefore, transmission dependency was evaluated by mask 3D simulation, and it was found that 30% transmission has the best lithographic performances for array dot. Based on these results, mask blank and mask making process for new 30% PSM were developed. Wafer printability test using negative tone development demonstrated that new 30% PSM has better process window and mask error enhancement factor (MEEF) than conventional 6% PSM for array dot (hole on wafer). To investigate further application of new 30% PSM, lithography performances of various patterns were evaluated by mask 3D simulation and aerial image measurement system (AIMSTM). The results indicated that new 30% PSM has larger lithography margin than 6% PSM for iso dot, iso line and logic pattern. Additionally, wafer printability test demonstrated that new 30% PSM has better process window than 6% PSM for iso dot. Defect control is also an important factor in high volume manufacturing. Therefore, it is necessary to evaluate the repairability and printability of the defects on new 30% PSM. We repaired various types of defects by electron-beam repair tool and confirmed the repairability by AIMS. And the defect printability of new 30% PSM and 6% PSM to critical dimension (CD) on wafer was evaluated by program defect mask that has pin dot, extrusion and intrusion defects.

Published

2021

3. Effects of mask pattern transmission on ArF lithographic performance in contact hole patterning

Author

Naoto Yonemaru, Tatsuya Nagatomo, Yosuke Kojima, Kazuaki Matsui, and Mitsuharu Yamana

Subjects

Materials science, business.industry, law.invention, Nanoimprint lithography, Optical proximity correction, law, Etching (microfabrication), Optoelectronics, Wafer testing, Wafer, Photolithography, Photomask, business, Lithography

Abstract

Even with the increase in need for next-generation lithography, immersion ArF lithography is still applied to the majority of critical layers. However, as circuit designs shrink, conventional 6% phase-shift mask (PSM) will become difficult to meet the lithography requirements for dense dot pattern compared to dense line pattern. To enhance immersion ArF lithographic performances for dot pattern, high-transmission PSM (High-T PSM) is attracting attention because the transmission of PSM has a significant impact on lithographic performances. From results of transmission dependency evaluated by mask three-dimensional (3D) simulation, it was found that 30% transmission has the best lithographic performances for dense dot. Based on these results, mask blank and mask making process for the new 30% PSM were developed. The results showed good cross-section profile, mask pattern resolution, and defect repairability. In addition, the durability against chemical cleaning and ArF irradiation were also improved. Wafer printability test using negative tone development demonstrated that new PSM has advantages in process window and mask error enhancement factor for dense dots (holes on wafer). Finally, the potential for further application of new PSM was investigated by mask 3D simulation. The results showed that new PSM has lithographic benefits not only for dense dots but also other patterns.

Published

2021

4. A novel 'high-transmission' phase shift mask for ArF lithographic performance enhancement

Author

Tatsuya Nagatomo, Kazuaki Matsui, Mitsuharu Yamana, Yosuke Kojima, and Naoto Yonemaru

Subjects

Materials science, Transmission (telecommunications), business.industry, High transmission, Phase-shift mask, Optoelectronics, Process window, Wafer, Node (circuits), business, Performance enhancement, Lithography

Abstract

Even with the increasing need for next-generation lithography, ArF lithography is still applied to the majority of critical layers. However, as wafer design shrinks, conventional 6% phase shift mask (PSM) becomes unable to sufficiently meet the lithography requirements for dense dot pattern compared to dense line pattern. To enhance ArF lithographic performances for dot pattern, high-transmission phase shift mask (High-T PSM) is attracting attention because the transmission of PSM has a significant impact on lithographic performances[1-4]. From the evaluation results of transmission dependency by mask 3D simulation, it was found that 30% transmission has the best lithographic performances for dot pattern. Based on these results, mask blank and mask making process for the new 30% PSM were developed. The result showed good cross-section profile, mask pattern resolution and defect repairability. In addition, the durability against chemical cleaning and ArF irradiation were also improved. Wafer printability test using negative tone development demonstrated that new PSM has advantages in process window and MEEF for dense dots (holes on wafer). Finally, the potential for further application of new 30% PSM was investigated by mask 3D simulation. The results showed that new 30% PSM has lithographic benefits not only for dense dots but also for other patterns. The new 30% PSM is a strong candidate capable of enhancing ArF lithographic performances for 5nm node or hp 1Xnm and beyond.

Published

2020

5. Elimination of Resist Poisoning in Via-First Dual Damascene Processes

Author

Makoto Tominaga, Kazutoshi Shiba, Masashi Fujimoto, Mitsuharu Yamana, Seiji Nagahara, and Susumu Watanabe

Subjects

Materials science, Polymers and Plastics, Organic base, Organic Chemistry, Ion chromatography, Copper interconnect, Analytical chemistry, Capillary electrophoresis, Adsorption, Resist, Chemical engineering, Materials Chemistry, Wafer, Lithography

Abstract

Resist poisoning in via-first dual damascene was observed after trench lithography. The resist poisoning was more likely to occur when a low-k material was used. To examine the relationship between resist poisoning and the amount of basic contaminants, we analyzed basic molecules by capillary electrophoresis (CE), ion chromatography, and thermal desorption-atmospheric pressure ionization-mass spectrometry (TD-API-MS). It was found that three amines were adsorbed on a low-k wafer. The total amount of amines was related to the resist poisoning. We also conducted TD-API-MS experiments on wafers with a variety of via densities. These experiments well explained why isolated vias are more likely to suffer from resist poisoning. As a process approach toward the elimination of resist poisoning, we confirmed that quick heat treatment at a high temperature was effective in removing the amines from the low-k wafer. As a material approach, we tried to make resists with high resistance to resist poisoning. The addition of a quencher (organic base) in the resists effectively reduced the resist poisoning. The mechanism was verified by nonaqueous titrations of a model resist system. It was found from the model experiments that a buffer system composed of the photoacid and its conjugate base was working to keep the pH changes from external basic contaminants small.

Published

2003

6. Deblocking reaction of chemically amplified positive DUV resists

Author

Mitsuharu Yamana, Toshiro Itani, Hiroshi Yoshino, and Hiroyoshi Tanabe

Subjects

Materials science, Polymers and Plastics, Resist, Deblocking filter, Organic Chemistry, Materials Chemistry, Nanotechnology

Published

1999

7. A study of dissolution characteristics and acid diffusion in chemically amplified DUV resist

Author

Shuichi Hashimoto, Toshiro Itani, Mitsuharu Yamana, Norihiko Samoto, and Kunihiko Kasama

Subjects

chemistry.chemical_classification, Base (chemistry), Chemistry, Diffusion, Analytical chemistry, Photoresist, Condensed Matter Physics, Line width, Atomic and Molecular Physics, and Optics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, Resist, law, Polymer chemistry, Electrical and Electronic Engineering, Photolithography, Lithography, Dissolution

Abstract

The effects of dissolution characteristics and acid diffusion behavior on lithographic performance were evaluated in tert-butoxycarbonyl (t-BOC)-protected chemically amplified positive deep-ultraviolet (DUV) resists. The resists consisted of t-BOC-protected polyhydroxystyrene as a base resin and 2,4-dimethylbenzenesulfonic acid derivative as a photoacid generator (PAG). In particular, the line width difference between an isolated line and a dense line (iso/dense bias) was investigated by changing the post-exposure bake (PEB) temperature. As a result, clear relationships among dissolution characteristics, acid diffusion length, and iso/dense bias were obtained. Moreover, suitable dissolution characteristics and acid diffusion length for reducing iso/dense bias were clarified.

Published

1998

8. Acid and base diffusion in chemically amplified DUV resists

Author

Norihiko Samoto, Shuichi Hashimoto, Kunihiko Kasama, Mitsuharu Yamana, Toshiro Itani, and Hiroshi Yoshino

Subjects

chemistry.chemical_classification, Base (chemistry), Diffusion, Analytical chemistry, Sulfonic acid, Condensed Matter Physics, Photochemistry, medicine.disease_cause, Atomic and Molecular Physics, and Optics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, chemistry, Resist, medicine, Polystyrene, Acid–base reaction, Electrical and Electronic Engineering, Lithography, Ultraviolet

Abstract

In order to clarify the photogenerated acid diffusion in resist film, the diffusion behavior of acid, as well as the role of additional base component was investigated in tert-butoxycarbonyl (t-BOC) protected type chemically amplified positive deep ultraviolet (DUV) resists. The resists consisted of t-BOC protected polystyrene as a base resin, 2,4-dimethylbenzene sulfonic acid derivative as a photoacid generator (PAG) and N-methyl-pyrrolidone (NMP) as an additional base component. Acid diffusion coefficient was suppressed by the addition of base component. Moreover, the change of base concentration corresponded directly to the lithographic performance, such as sensitivity, resolution capability and resist profile, especially T-topping formation. Based on the experimental analysis, the clear relationship between acid diffusion length and additional base was obtained.

Published

1997

9. Dissolution Characteristics of Chemically Amplified DUV Resists

Author

Hiroshi Yoshino, Kunihiko Kasama, Norihiko Samoto, Toshiro Itani, Mitsuharu Yamana, and Shuichi Hashimoto

Subjects

chemistry.chemical_classification, Arrhenius equation, Tetramethylammonium hydroxide, Materials science, Polymers and Plastics, Organic Chemistry, Kinetics, Analytical chemistry, Polymer, Penetration (firestop), symbols.namesake, chemistry.chemical_compound, Benzenesulfonic acid, chemistry, Chemical engineering, Resist, Materials Chemistry, symbols, Dissolution

Abstract

Dissolution kinetics of a chemically amplified deep ultraviolet (DUV) positive resist, which consists of tert-butoxycarbonyl (t-BOC) protected phenolic resin, benzenesulfonic acid derivative as a photoacid generator (PAG) and an additional dissolution inhibitor, has been investigated by focusing on the polymer structures (t-BOC blocking level, molecular weight and molecular weight dispersion) and photo-acid structures. Based on the analysis of the dissolution rate curve and Arrhenius plots, it was concluded that only one mechanism, namely, the penetration of tetramethylammonium hydroxide (TMAH) developer into hydrophobic t-BOC resin, rules the dissolution kinetics. It was also found that a steep slope of the dissolution rate curve is very effective for improving resolution capability. Moreover, ideal dissolution characteristics which can realize superior resolution capability, were obtained by analyzing both experimental dissolution rate and resist profile simulation.

Published

1997

10. A Study of Photoacid Structure Dependence on Lithographic Performance in Chemically Amplified Resists

Author

Shuichi Hashimoto, Kunihiko Kasama, Hiroshi Yoshino, Norihiko Samoto, Toshiro Itani, and Mitsuharu Yamana

Subjects

chemistry.chemical_classification, Polymers and Plastics, Vapor pressure, Organic Chemistry, Evaporation, Sulfonic acid, Photochemistry, Absorbance, Acid strength, chemistry, Resist, Polymer chemistry, Materials Chemistry, Dissolution, Alkyl

Abstract

The relationship between photoacid characteristics and lithographic performance in chemically amplified deep ultraviolet (DUV) resists was investigated. Two types of resist systems which consist of the same resin (tert-butoxycarbonyl (t-BOC) protected polyhydroxystyrene) and different photoacid generators (PAGs) were used. Resist 1 contains PAG 1 which generates aromatic sulfonic acid (acid 1; 2, 4- dimethylbenzensulfonic acid) and resist 2 contains PAG 2 which generates alkyl sulfonic acid (acid 2; cyclohexanesulfonic acid).The sensitivity of resist 1 was about four times higher than that of resist 2, and T-top profile became remarkable in resist 1, while the resolution capability was much the same. In order to clarify the reason of these differences, the photoacid characteristics such as the acid generation efficiency by exposure, the vapor pressure, the acid strength (pKa value), and the acid catalyzed deblocking reaction were investigated, together with the dissolution rate characteristics.Higher sensitivity of resist 1(aromatic sulfonic acid) was originated from larger amount of photogenerated acid (high absorbance), longer diffusion length and higher efficiency of deblocking reaction, as compared with resist 2 (alkyl sulfonic acid). Moreover, it was considered that T-topping profile was due to the evaporation of aromatic sulfonic acid 1.Based on these analysis, it was concluded that moderate absorbance, optimum diffusion length and lower evaporation property can realize ideal acid characteristics, leading to superior resist performance.

Published

1996

11. Contact mask LER impact on lithographic performance

Author

Tatsuya Nagatomo, Shunsuke Sato, Tsuyoshi Tanaka, Mitsuharu Yamana, Masaru Higuchi, and Katsuhisa Morinaga

Subjects

Optics, Materials science, Opacity, business.industry, Wafer, Mascara, Surface finish, business, Lithography

Abstract

A requirement for CD control on wafer is increasing with shrinking design rule [1] . This is especially true for dense contacts because of higher MEEF. It is considered that contact mask LER impact on lithographic performance is comparatively large. Nevertheless, a relationship between contact mask LER and wafer performance has not been evaluated in recent years. Therefore we studied contact mask roughness impact on wafer in order to determine specs for improvement of mask quality. We assumed the thin MoSi binary mask which was called Opaque MoSi On Glass (OMOG). The programmed roughness patterns data for 28 nm nodes was made. The frequency and depth of roughness was changed. In addition, we also drew bump patterns. A lithography simulator was used to investigate which kind of mask roughness impacted significantly on wafer. We compared the difference between wafer experiment and simulation. Finally a relationship between contact mask roughness and lithographic performance was obtained.

Published

2010

12. Fine pattern fabrication property of binary mask and attenuated phase shift mask

Author

Yosuke Kojima, Mitsuharu Yamana, Tsuyoshi Tanaka, Taichi Yamazaki, and Takashi Haraguchi

Subjects

Fabrication, Optics, Materials science, Resist, Opacity, business.industry, Phase-shift mask, Mask inspection, business, Lithography, Aspect ratio (image), Blank

Abstract

For 45nm and 32nm node technology, the challenges for resolution and CD control of mask patterns become the steeper mountain path. Especially, Sub Resolution Assist Feature (SRAF) is the smallest pattern on mask and amplifies the difficulty of mask fabrication. In order to improve the resolution of fine patterns, the influence of wet processing cannot be neglected, because it causes the pattern collapsing. Wet processing of mask-making can be divided into resist development and cleaning. In this study, the root causes of pattern collapsing are investigated at each wet processing. It is confirmed that thin resist can enhance the resolution limit of resist pattern and hard-mask blank, such as OMOG: Opaque MoSi On Glass, is suitable for thinner resist under 1500A. The pattern collapsing of OMOG is compared with that of Att.PSM at the cleaning before and after Cr stripping. Mask inspection finds that pattern collapsing can be suppressed by OMOG at both cleanings. It is because OMOG has lower cleaning stress than Att.PSM due to lower aspect-ratio. This benefit is demonstrated by cleaning stress simulation. Additionally, it is found that the SRAF size of OMOG can be wider than Att.PSM by optical simulation. From these results, OMOG has much advantage of fine pattern fabrication and is the optimal blank for 32nm node and beyond.

Published

2009

13. Comparison of lithographic performance between MoSi binary mask and MoSi attenuated PSM

Author

Tatsuya Nagatomo, Yoji Tonooka, Matthew Lamantia, Vicky Philipsen, Shingo Wada, and Mitsuharu Yamana

Subjects

Engineering, Resolution enhancement technologies, business.industry, law.invention, Optics, Optical proximity correction, Duty cycle, law, Multiple patterning, Photolithography, business, Lithography, Exposure latitude, Dram

Abstract

The mask error budget continues to shrink with shrinking DRAM half pitch and MPU gate size year by year. The ITRS roadmap calls for mask CDU to be cut in half by 2014[1]. Both mask maker and mask user must take advantage of various mask properties, OPC strategies and resolution enhancement techniques to drive improvements. Mask material selection impacts both lithographic performance and mask manufacturability. In turn mask material properties and manufacturing techniques impact our ability to meet the technology roadmap. Studies have shown the advantages of polarized light[2,3] as well as the impact of various mask materials on high NA lithography[4]. In this paper we select the recently introduced binary mask material made from a MoSi absorber called Opaque MoSi On Glass (OMOG) for comparison with the conventional 6% att. PSM and 20% att. MoSi PSM. Through simulation and wafer prints, we optimized mask feature from viewpoint of MEEF and maximum exposure latitude (EL). The MoSi att. PSMs suffer from higher MEEF, which is attributed to the negative effect of TE polarization for mask duty cycle of 50% for 50 nm half pitch and below. Therefore a lower mask duty cycle is required for att. PSM to bring the MEEF performance back to acceptable levels. Experimental results confirm simulation results. As a result of the lower mask duty cycle, the att. MoSi PSMs exhibit poor Sub Resolution Assist Feature (SRAF) printability. On the contrary, the MoSi binary mask delivers both acceptable MEEF and acceptable SRAF printing performance. Moreover, we found that the mask structure impact of OMOG to wafer CD is smallest among three masks. OMOG gives the best combination of lithographic performance and delivery compared to the MoSi att. PSMs.

Published

2009

14. Contact shrinkage techniques for 157-nm lithography

Author

Mitsuharu Yamana, Makoto Tominaga, Seiji Nagahara, and Masumi Hirano

Subjects

chemistry.chemical_classification, Depth of focus, Materials science, business.industry, Polymer, Optics, Resist, chemistry, Thermal, Node (physics), Optoelectronics, business, Critical dimension, Lithography, Shrinkage

Abstract

The development of a process for contact hole tends to be overdue although priority is generally given to the development of line and space patterns. The size of a contact hole pattern in 45 nm node will be about 60 nm. 157-nm lithography will be applied to 45 nm node. The depth of focus is critical issue. Then we evaluated three types of contact hole shrinkage techniques such as Thermal Flow, SAFIER and RELACS for 157-nm lithography. A resist which was consisted of a polymer with fluoride on a side chain was used. The shrinkage temperature was optimized by applying hole shrinkage processes to patterns formed by 193-nm lithography. It was made clear that Thermal Flow process was not practical in the view point of extremely high shrinkage temperature. On the other hand, hole size was reduced by about 20 nm in the case of SAFIER and RELACS at controllable temperature. It is an advantage of SAFIER process that hole size is changed with shrinkage bake temperature. In RELACS process, small mixing temperature dependence of critical dimension (CD) is advantageous. Also in 157-nm lithography, it was shown that the shrinkage techniques such as SAFIER and RELACS are possible, and the about 75nm hole pattern was formed.

Published

2004

15. Investigation of the polymer systems for ArF resists

Author

Seiji Nagahara, Masumi Hirano, Miwa Miyairi, Hideo Hada, Shinichi Kohno, Takeshi Iwai, Mitsuharu Yamana, and Kunihiko Kasama

Subjects

chemistry.chemical_classification, Acrylate, Materials science, Oxide, Maleic anhydride, Polymer, Methacrylate, chemistry.chemical_compound, chemistry, Resist, Etching (microfabrication), Polymer chemistry, Composite material, Lithography

Abstract

Various resists, which consisted of polymer systems, such as methacrylate, acrylate and cycloolefin/maleic anhydride (COMA), were investigated in the viewpoint of etching resistance, lithographic performance and shelf life. The oxide etching rate was in order of acrylate < methacrylate << COMA. The surface roughness of the acrylate type resist after oxide etching was the smallest among all samples. The methacrylate type resist showed high resolution capability as a line and space resist. On the other hand, pattern collapse was observed in the acrylate type resist, and low resolution was shown in the COMA type resist because of the large resist thickness loss. In the case of contacts, the acrylate type resist showed better linearity. The sensitivity of the acrylate and methacrylate type resists kept at room temperature did not changed in 20 days, while the sensitivity of the COMA type resist changed. It was found that the methacrylate type resist was the most suitable as a line and space resist and the acrylate type resist was the most promising as a contact hole resist.

Published

2003

16. Importance of resist transparency and development rate control in via-first dual damascene processes

Author

Mitsuharu Yamana, Takeo Hashimoto, Seiji Nagahara, and Masashi Fujimoto

Subjects

Materials science, Scanning electron microscope, Copper interconnect, Nanotechnology, Dielectric, engineering.material, law.invention, Resist, Coating, law, Trench, engineering, Composite material, Photolithography, Lithography

Abstract

We have investigated the requirements for resist materials in via-first dual damascene copper processes. We first patterned vias on a dielectric stack, and then, after via etching and stripping, we formed metal trench patterns using KrF/ArF lithography. A bottom anti-reflective coating (BARC) was used to fill the vias prior to the resist coating in order to protect the bottom of the vias during the trench etching. Trench patterns were formed on the BARC using chemically amplified resists. We found that resists with lower transparency and a lower maximum development rate (Rmax) were not developed in the vias on the partially filled BARC. When the trench patterns were etched with resist residue in the vias, severe fence defects were observed around the via openings at the bottom of the trenches. These defects cannot be removed by dry or wet stripping. Complete removal of the resists in the vias prevented the formation of fences. Simulation of the resist profile showed the use of resists with high transparency and a high Rmax prevented the accumulation of resist residue in the vias. A KrF resist formulated with higher transparency and a higher Rmax was completely developed even in the vias, so that trench patterns without the fences were formed after trench etching.

Published

2002

17. Effects of polymer structure on dissolution characteristics in chemically amplified 193-nm resists

Author

Toshiro Itani, Hiroshi Yoshino, Kunihiko Kasama, Mitsuharu Yamana, Masaharu Takizawa, and Hiroyoshi Tanabe

Subjects

chemistry.chemical_classification, Materials science, business.industry, Scanning electron microscope, Nanotechnology, Polymer, Methacrylate, Numerical aperture, chemistry, Resist, Etching (microfabrication), Optoelectronics, business, Lithography, Dissolution

Abstract

This paper describes the effects of the blocking level of polymer on both dissolution characteristics and lithographic performance in chemically amplified positive 193 nm resists consisting of a alicyclic methacrylate polymer and a photoacid generator. There were clear relationships between the blocking level and both the dissolution rate characteristics and the lithographic performance. We found that the dissolution contracts and developer selectivity improved as the blocking level of polymer increased, and then the resolution capability was improved. However, the dry-etch resistance and adhesion property of the resist film deteriorated as the blocking level increased, although these were at the same levels as those of conventional i-line novolak resist or polyhydroxystyrene base KrF resists. Therefore, these resist materials show potential for the next generation of LSI devices. Ideal dissolution parameters for improving the resolution capability were obtained by using a resist profile simulator. By using a high-contrast resist incorporating these parameters, and by using a higher numerical aperture lens and annular illumination, the mass production of next-generation devices with a 0.12 micrometers design rule can be achieved.

Published

1999

18. Photoacid Diffusion in Chemically Amplified DUV Resists

Author

Shuichi Hashimoto, Hiroshi Yoshino, Norihiko Samoto, Mitsuharu Yamana, Kunihiko Kasama, and Toshiro Itani

Subjects

chemistry.chemical_compound, Materials science, chemistry, Resist, Photoacid, Diffusion (business), Photochemistry

Published

1998

19. Deblocking reaction of chemically amplified ArF positive resists

Author

Toshiro Itani, Shuichi Hashimoto, Hiroyoshi Tanabe, Kunihiko Kasama, Mitsuharu Yamana, and Hiroshi Yoshino

Subjects

Reaction rate, Reaction mechanism, Reaction rate constant, Chemical engineering, Resist, Chemistry, Deblocking filter, Polymer chemistry, Copolymer, Methacrylate, Equilibrium constant

Abstract

Deblocking reaction mechanisms and lithographic performance in chemically amplified positive ArF resists were investigated by analyzing acid concentration and blocking level. The resists consisted of triphenylsulfonium triflate as a acid generator and either the copolymer, poly(carboxy-tetracyclododecyl methacrylate 70 -co-tetrahydropyranylcarboxytetracyclododecyl methacrylate 30 ) or the terpolymer, poly(tricyclodecylacrylate 60 -co-tetrahydropyranylmethacrylate 20 -co-methacrylic acid 20 ). The deblocking reaction mechanisms were evaluated from Arrhenius plots of the deblocking reaction rate constant. It was found that the deblocking reaction of both resists is ruled by two rate-determining steps, i.e., reaction-controlled in the low-temperature region and acid-diffusion-controlled in the high-temperature region. Furthermore, the copolymer resist had better post-exposure-delay (PED) stability. To clarify this result, acid loss caused by air-born contamination effect on deblocking reaction was investigated. The change of amount of blocking group by acid loss was small for the copolymer. Therefore the copolymer resist had better PED stability. Furthermore, the post-exposure bake (PEB) sensitivity of linewidth of the copolymer resist was smaller than that of the terpolymer resist. Both deblocking reaction rate constant and reverse reaction rate constant of the copolymer resist increased with PEB temperature. As a result, equilibrium constant of the copolymer was not valuable with temperature. This is the reason why the copolymer resist has low PEB sensitivity. It is concluded that small acid loss effect on deblocking reaction induces better PED stability. A resist with reverse reaction has an advantage for PEB temperature sensitivity.

Published

1998

20. Compatibility of chemically amplified photoresists with bottom antireflective coatings

Author

Toshiro Itani, Shuichi Hashimoto, Hiroyoshi Tanabe, Mitsuharu Yamana, Hiroshi Yoshino, and Tsuyoshi Yoshii

Subjects

Materials science, Silicon, Scanning electron microscope, Acetal, Infrared spectroscopy, chemistry.chemical_element, Photoresist, law.invention, chemistry.chemical_compound, Anti-reflective coating, Resist, chemistry, Chemical engineering, law, Organic chemistry, Necking

Abstract

The effects of acid structures and blocking groups in chemically amplified resists on compatibility with bottom anti-reflective coatings (BARCs), were investigated. The resists consisted of tert-butoxy carbonyl (t-BOC) or acetal blocked polyhydroxystyrene with three types of photoacid generators (PAGs) which generate trifluoromethanesulfonic acid (acid 1), 2,4-dimethyl benzensulfonic acid (acid 2) and cyclohexanesulfonic acid (acid 3). Three types of commercially available BARCs, Brewer Science CD9, DUV11 and DUV18 were used for this study. CD9 was decomposed by exposure and generated an acid substance, which induced the necking at the bottom of the resist films. In the case of DUV11, the generated acid from the PAG was neutralized, and footing was observed in t-BOC type resists. Acetal type resists had no footing on DUV11 because the deblocking reaction progressed without post-exposure baking. DUV18 had good compatibility with most of the resist materials because of its neutral acidity. From the viewpoint of resist materials, it was found that the acetal type resists tended to have necking, because the deblocking reaction occurred at lower acid concentration compared with t-BOC type resists. Moreover, the tendency to have a necking profile, in increasing order, was acid 3 > acid 2 > acid 1. This order corresponded with the reverse order of the efficiency of the deblocking reaction. A weak acid might be greatly affected by some substance diffused from a BARC. The acetal type resist with acid 1 had excellent compatibility with various BARCs. However, the resolution capability of the acetal type resist with acid 1 was lower than that of the acetal type resist with acid 3, because the acid diffusion length of acid 1 was larger than that of acid 3. It was concluded that good compatibility of the resist with the BARC is achieved by the high deblocking reaction efficiency and moderate diffusion length of acid in acetal type resists.

Published

1998

21. Preparation and optical properties of amorphous silica doped with porphins (TCPP)

Author

Mitsuharu Yamana, Kohei Soga, Hiroyuki Inoue, Motohiro Uo, and Akio Makishima

Subjects

chemistry.chemical_compound, Materials science, chemistry, Chemical engineering, Silica gel, Annealing (metallurgy), Doping, Analytical chemistry, Ft ir spectroscopy, Quantum efficiency, Time-multiplexed optical shutter, Amorphous silica

Abstract

Tetrakis(4-carboxyphenyl)porphine (TCPP), which is well known as a photochemical hole burning(PHB) dye, wasincorporated in amorphous silica materials(a-Si02) by a sol-gel process with using tetramethoxysilane(TMOS) andaminopropyltriethoxysilane(APTES). With using APTES as precursor of silica gel, TCPP was cross-linked to a-Si02matrix through aminopropyl group of APTES. The cross-linkage of TCPP and APTES was confirmed by the FT-IRmeasurement. The TCPP incorporated in a-Si02 matrices showed activity in PHB. In the TCPP cross-linked a-Si02,properties of photochemical hole, such as hole width, quantum efficiency and irreversible broadening under cycleannealing experiment, were improved. A burnt hole at 3.6K was observed after cycle annealing experiment up to 80K inthe TCPP cross-linked a-Si02.Keywords: TCPP, sol-gel process, photochemical hole burning(PHB), aminopropyltriethoxysilane(APTES), FT-IR,cross-link, hole width, quantum efficiency, irreversible broadening 1. INTRODUCTION

Published

1997

22. Deblocking reaction of chemically amplified positive DUV resists

Author

Norihiko Samoto, Hiroshi Yoshino, Kunihiko Kasama, Mitsuharu Yamana, Shuichi Hashimoto, and Toshiro Itani

Subjects

Arrhenius equation, Reaction mechanism, Chemistry, Deblocking filter, Activation energy, Photochemistry, Reaction rate, chemistry.chemical_compound, symbols.namesake, Reaction rate constant, Resist, symbols, Organic chemistry, Polystyrene

Abstract

Deblocking reaction mechanisms and lithographic performance in chemically amplified positive KrF resist were investigated by analyzing acid concentration and blocking level. The resists consist of tetrahydropyranyl (THP) or tert-butoxycarbonyl (t- BOC) blocked polystyrene as the base resin and 2,4- dimethylbenzenesulfonic acid derivative as a photoacid generator (PAG). The deblocking reaction mechanisms and activation energy of the deblocking reaction were evaluated from Arrhenius plots of the deblocking reaction rate constant kd. It was found that the deblocking reaction is ruled by two rate-determining steps; it is reaction-controlled in the low-temperature region and acid-diffusion-controlled in the high-temperature region. The activation energy of THP blocked resists (THP resists) in the low-temperature region was lower than that of the t-BOC blocked resists (t-BOC resists). The THP groups were deblocked even at room temperature. Then the THP resist was hardly affected by air contamination. This is one of the reasons why the THP resist had good PED stability. Moreover, the linewidth difference between the isolated line and the dense line (iso-dense bias) of the THP resist was much larger than that of the t-BOC resist. It was concluded that the resist with a high deblocking reaction rate at room temperature had a clear advantage for PED stability, and that the activation energy of the deblocking reaction should be high at PEB (post-exposure bake) temperature to reduce iso- dense bias.

Published

1997

23. Acid evaporation property in chemically amplified resists

Author

Mitsuharu Yamana, Kunihiko Kasama, Norihiko Samoto, Toshiro Itani, Shuichi Hashimoto, and Hiroshi Yoshino

Subjects

Solvent, chemistry.chemical_classification, chemistry.chemical_compound, Materials science, chemistry, Resist, Vapor pressure, Polymer chemistry, Evaporation, Ethyl lactate, Sulfonic acid, Polyvinyl alcohol, Alkyl

Abstract

The lithographic performance of a chemically amplified resist system very much depends on the photo-generated acid structure. In a previous paper, we reported the molecular structure dependence of two typical photo-generated acids (aromatic sulfonic acid and alkyl sulfonic acid) from the viewpoints of lithographic performance and acid characteristics such as acid generation efficiency, acid diffusion behavior and acid evaporation property. In this paper, we evaluate the effect of the remaining solvent in a resist film on the acid evaporation property. Four types of two-component chemically amplified positive KrF resists were prepared consisting of tert-butoxycarbonyl (t-BOC) protected polyhydroxystyrene and sulfonic acid derivative photo-acid generator (PAG). Here, a different combination of two types of PAGs [2,4-dimethylbenzenesulfonic acid (aromatic sulfonic acid) derivative PAG and cyclohexanesulfonic acid (alkyl sulfonic acid) derivative PAG] and two types of solvents (propylene glycol monomethyl ether acetate; PGMEA and ethyl lactate; EL) were evaluated. The aromatic sulfonic acid was able to evaporate easily during post exposure bake (PEB) treatment, but the alkyl sulfonic acid was not. The higher evaporation property of aromatic sulfonic acid might be due to the higher vapor pressure and the longer acid diffusion length. Furthermore, the amount of aromatic sulfonic acid in the PGMEA resist was reduced by more than that in the EL resist. The amount of acid loss also became smaller at a higher prebake temperature. The concentration of the remaining solvent in the resist film decreased with the increasing prebake temperature. We think that the acid evaporation property was affected by the remaining solvent in the resist, film; the large amount of remaining solvent promoted the acid diffusion and eventually accelerated the acid evaporation from the resist film surface in the PGMEA resist. In summary, the acid evaporation property depends on both the acid structure and the remaining solvent in the resist film. These results can be applied to other chemically amplified resist systems to suppress the T-topping profile and achieve a superior resist performance.

Published

1997

24. Halation reduction for single-layer DUV resist processing

Author

Shuichi Hashimoto, Norihiko Samoto, Mitsuharu Yamana, Kunihiko Kasama, Hiroshi Yoshino, and Toshiro Itani

Subjects

Depth of focus, Materials science, Excimer laser, business.industry, medicine.medical_treatment, law.invention, Micrometre, Optics, Resist, law, medicine, Transmittance, Optoelectronics, Photolithography, business, Lithography, Electron-beam lithography

Abstract

In order to apply single layer resist processing to 0.25-micrometer patterning, the effect of topography was studied in KrF excimer laser lithography, using a two-dimensional resist profile simulator with vector model. In particular, we simulated resist transmittance dependence on depth of focus (DOF) and halation, by considering a conventional (non- bleaching type) DUV chemically amplified positive resist. Here, we varied the step angle of the topographic substrate (height 0.1 micrometer) and the distance between step and resist pattern. Moreover, we investigated the influence of two optical resist characteristics, photo- bleaching and photo-coloring, from the viewpoint of halation reduction. For a highly reflective substrate such as polysilicon, the optimum transmittance (DOF greater than or equal to 1.0 micrometer) of the non-bleaching type resist with a resist thickness of 0.7 micrometer was determined to be 40 - 50%. In such a non-bleaching type resist, a good profile was obtained when the distance between the step and the resist pattern edge was more than 0.3 micrometers. Moreover, it was found that photo-coloring in the resist film was effective for halation reduction.

Published

1996

25. High contrast chemically amplified 193 nm resist for gigabit dynamic random access memory generation

Author

Hiroshi Yoshino, Mitsuharu Yamana, Hiroyoshi Tanabe, Michiya Takimoto, and Toshiro Itani

Subjects

Dynamic random-access memory, Materials science, business.industry, General Engineering, Oxide, law.invention, Numerical aperture, Lens (optics), chemistry.chemical_compound, Optics, Resist, chemistry, law, Dry etching, business, Dissolution, Dram

Abstract

Four Gb dynamic access random memory (DRAM) cell patterns which have a 0.12 μm design rule were demonstrated by using a high contrast chemically amplified 193 nm positive resist and high resolution exposure. All critical layers of 4 Gb DRAM, such as isolation, word line, contact hole, bit line, and storage node, were successfully resolved with suitable focus margin. The dissolution contrast of the resist film and the slope of dissolution rate curve were much higher than those of conventional polyhydroxystyrene based chemically amplified KrF positive resist. Moreover, the dry etch resistance of the resist film for both the polysilicon etch and the oxide etch was better than those of KrF resist. These results indicated that this resist material has enough potential for practical use. Furthermore, the resist profile simulation showed that mass production of 4 Gb DRAMs can be achieved by a combination of a high contrast resist and a higher numerical aperture lens under annular illumination.

Published

1999

26. Dissolution characteristics of chemically amplified 193 nm resists

Author

Mitsuharu Yamana, Hiroshi Yoshino, Mami Miyasaka, Shuichi Hashimoto, Hiroyoshi Tanabe, and Toshiro Itani

Subjects

Arrhenius equation, Materials science, Kinetics, General Engineering, Penetration (firestop), Photochemistry, symbols.namesake, Resist, Polymer chemistry, symbols, Copolymer, Polymer blend, Trifluoromethanesulfonate, Dissolution

Abstract

The dissolution kinetics of two types of chemically amplified positive 193 nm resists were investigated; a ter-polymer resist consisting of poly(tricyclodecylacrylate-co-tetrahydrodpyranyl-methacrylate-co-methacrylic acid) and triphenylsulfonium triflate as a photoacid generator, and a copolymer resist consisting of poly(carboxytetracyclododecylmethacrylate-co-tetrahydro-pyranyloxy-carbonyl-tetracyclododecylmethacrylate) and triphenylsulfonium triflate as a photoacid generator. The dissolution rate contrast was higher and the slope of dissolution rate curve was steeper for the ter-polymer resist than those for the copolymer resist. However, the Arrhenius plots of the dissolution rates were straight lines for both resists irrespective of the exposure doses. This indicates that only one mechanism determines the dissolution of both resists, and it is believed that the dominant rate-determining step in both resists is the tetramethylammoniumhydroxide penetration into the resist films. The resolution capabilit...

Published

1998

27. Investigation of the notching effect for single layer deep ultraviolet resist processing

Author

Kunihiko Kasama, Hiroshi Yoshino, Mitsuharu Yamana, Norihiko Samoto, Tsuyoshi Yoshii, Toshiro Itani, and Shuichi Hashimoto

Subjects

Notching, Materials science, Resist, business.industry, General Engineering, medicine, Transmittance, Optoelectronics, medicine.disease_cause, business, Ultraviolet, Single layer

Abstract

In order to extend the application limit of single layer resist processing to 0.25 μm pattern formation, the influence of resist thickness on reflective notching effects was investigated, using a two-dimensional resist profile simulator with the vector model. As the resist thickness increased, the reflective notching was varied periodically. Resist profile degradation due to reflective notching was maximum at the resist thickness where resist sensitivity was maximum (Emax), and was minimum at the resist thickness where resist sensitivity was minimum (Emin). The reflective notching was strongly dependent on the effective exposure dose Eeff at the bottom of the resist film, defined as the product of resist transmittance and optimum exposure dose Eopt. These simulation results were verified experimentally. It was concluded that the resist thickness should be set to minimize exposure dose for the reduction of reflective notching effects.

Published

1997

28. Polymer structure effect on dissolution characteristics and acid diffusion in chemically amplified deep ultraviolet resists

Author

Mitsuharu Yamana, Shuichi Hashimoto, Kunihiko Kasama, Toshiro Itani, Norihiko Samoto, and Hiroshi Yoshino

Subjects

chemistry.chemical_classification, Materials science, General Engineering, Analytical chemistry, Penetration (firestop), Surface finish, Polymer, medicine.disease_cause, chemistry.chemical_compound, chemistry, Resist, Polymer chemistry, medicine, Molecule, Polystyrene, Dissolution, Ultraviolet

Abstract

The role of molecular weight dispersion (Mw/Mn) of base phenolic resin was investigated in chemically amplified positive KrF resists. The resists consisted of tert-butoxycarbonyl (t-BOC) blocked polystyrene as base resin and 2,4-dimethylbenzenesulfonic acid derivative as photoacid generator, and the Mw/Mn value was changed as 1.2, 4.0, and 9.0. Not only dissolution rate contrast, but also the slope m of log(dissolution rate)-log(exposure dose) plots increased with decreasing Mw/Mn. In the case of low Mw/Mn, the molecular structure becomes more homogeneous, so resist film could be dissolved uniformly via constant developer penetration into film. This uniform dissolution characteristics may be attributable to the origin of dispersion effects mentioned above. Furthermore, higher acid diffusion property and smooth pattern side wall were obtained without side wall roughness in lower Mw/Mn. This fact indicates that acid diffusion length is also uniform within resist film in the case of low Mw/Mn. Based on the experimental analysis, the clear relationship among Mw/Mn, dissolution characteristics and acid diffusion behavior in resist film was obtained. Moreover, it was found that lower Mw/Mn has advantage for improving inherent resist performance.

Published

1997

29. Relationship between Remaining Solvent and Acid Diffusion in Chemically Amplified Deep Ultraviolet Resists

Author

Shuichi Hashimoto, Norihiko Samoto, Mitsuharu Yamana, Kunihiko Kasama, Hiroshi Yoshino, and Toshiro Itani

Subjects

chemistry.chemical_classification, Base (chemistry), Diffusion, General Engineering, Analytical chemistry, General Physics and Astronomy, Polymer, medicine.disease_cause, Solvent, chemistry.chemical_compound, chemistry, Resist, medicine, Organic chemistry, Polystyrene, Solvent effects, Ultraviolet

Abstract

For clarification of the diffusion path of photogenerated acid in the resist film, the prebake temperature dependence and tert-butoxycarbonyl ( t-BOC) blocking level dependence on acid diffusion were investigated for chemically amplified deep ultraviolet (DUV) positive resists. The resists consisted of a t-BOC protected polystyrene base resin and a 2,4-dimethylbenzenesulfonic acid derivative as a photoacid generator (PAG). The concentration of remaining solvent in the resist film decreased as the prebake temperature or t-BOC blocking level increased. The acid diffusion coefficient was almost independent of exposure dose; however, it decreased with increasing prebake temperature or blocking level. Therefore, it was considered that the concentration of remaining solvent in the resist film corresponds to one of the acid diffusion paths. Moreover, hydrophilic OH sites, whose concentration was the reciprocal of the blocking level, were also considered to correspond to a diffusion path in the polymer matrix, based on the fact that the acid diffusion length increased gradually with decreasing t-BOC blocking level, even when the solvent concentration remained constant. Based on the experimental analysis results, the existence of two diffusion paths, as well as of explicit relationships among the remaining solvent, t-BOC blocking level and acid diffusion length was confirmed.

Published

1996

30. A study of acid diffusion in chemically amplified deep ultraviolet resist

Author

Toshiro Itani, Kunihiko Kasama, Norihiko Samoto, Mitsuharu Yamana, Hiroshi Yoshino, and Shuichi Hashimoto

Subjects

chemistry.chemical_classification, Base (chemistry), Chemistry, Diffusion, General Engineering, Activation energy, Polymer, Photochemistry, medicine.disease_cause, Matrix (chemical analysis), chemistry.chemical_compound, Resist, medicine, Polystyrene, Ultraviolet

Abstract

Postexposure bake (PEB) dependence of photogenerated acid diffusion was investigated in a chemically amplified deep ultraviolet positive resist. The resist consisted of a tert‐butoxycarbonyl protected polystyrene as base resin and 2,4‐dimethylbenzenesulfonic acid derivative as photoacid generator. The diffusion length of photoacid increased with increasing PEB temperature or its time. Moreover, the activation energy of acid diffusion reaction within the resist film became smaller, with increased exposure dose. It is considered that hydrophilic OH sites of the base resin generated by the deprotection of hydrophobic protecting groups has a role as one of the diffusion paths in the polymer matrix. Furthermore, it was found that the diffusion coefficient under high PEB conditions was affected by the acid reduction. Based on the analysis of diffusion characteristics, clear correlation between acid diffusion in the resist film and PEB conditions was obtained. These results are useful for improving both resoluti...

Published

1996

31. Micro- and Nanopatterning Polymers

Author

HIROSHI ITO, ELSA REICHMANIS, OMKARAM NALAMASU, TAKUMI UENO, Christopher Harrison, Miri Park, Paul M. Chaikin, Richard A. Register, Douglas H. Adamson, Joachim P. Spatz, Thomas Herzog, Stefan Mössmer, Paul Ziemann, Martin Möller, C. B. Gorman, R. W. Vest, J. L. Snover, T. L. Utz, S. A. Serron, Hiroyuki Niino, Akira Yabe, Ross H. Hill, Sharon L. Blair, T. Hanemann, V. Piotter, R. Ruprecht, J. H. Hausselt, H.-T. Schacht, P. Falcigno, N. Münzel, R. Schulz, A. Medina, Wu-Song Huang, Kim Y. Lee, Rao Bantu, Ranee Kwong, Ahmad Katnani, Mahmoud Khojasteh, William Brunsvold, Steven Holmes, Ronald Nunes, Tsuyoshi Shibata, George Orsula, James Cameron, Dominic Yang, Roger Sinta, Toshiro Itani, Hiroshi Yoshino, Shuichi Hashimoto, Mitsuharu Yamana, Norihiko Samoto, Kunihiko Kasama, Kieko Harada, Masahito Kushida, Kyoichi Saito, Kazuyuki Sugita, Hirotada Iida, James W. Taylor, Paul M. Dentinger, Steven J. Rhyner, Geoffrey W. Reynolds, G. G. Barclay, M. King, A. Orellana, P. R. L. Malenfant, R. Sinta, E. Malmstrom, H. Ito, C. J. Hawker, Kunihiro Ichimura, Koji Arimitsu, HIROSHI ITO, ELSA REICHMANIS, OMKARAM NALAMASU, TAKUMI UENO, Christopher Harrison, Miri Park, Paul M. Chaikin, Richard A. Register, Douglas H. Adamson, Joachim P. Spatz, Thomas Herzog, Stefan Mössmer, Paul Ziemann, Martin Möller, C. B. Gorman, R. W. Vest, J. L. Snover, T. L. Utz, S. A. Serron, Hiroyuki Niino, Akira Yabe, Ross H. Hill, Sharon L. Blair, T. Hanemann, V. Piotter, R. Ruprecht, J. H. Hausselt, H.-T. Schacht, P. Falcigno, N. Münzel, R. Schulz, A. Medina, Wu-Song Huang, Kim Y. Lee, Rao Bantu, Ranee Kwong, Ahmad Katnani, Mahmoud Khojasteh, William Brunsvold, Steven Holmes, Ronald Nunes, Tsuyoshi Shibata, George Orsula, James Cameron, Dominic Yang, Roger Sinta, Toshiro Itani, Hiroshi Yoshino, Shuichi Hashimoto, Mitsuharu Yamana, Norihiko Samoto, Kunihiko Kasama, Kieko Harada, Masahito Kushida, Kyoichi Saito, Kazuyuki Sugita, Hirotada Iida, James W. Taylor, Paul M. Dentinger, Steven J. Rhyner, Geoffrey W. Reynolds, G. G. Barclay, M. King, A. Orellana, P. R. L. Malenfant, R. Sinta, E. Malmstrom, H. Ito, C. J. Hawker, Kunihiro Ichimura, and Koji Arimitsu

Published

1998